Online Risk-Averse Planning in POMDPs Using Iterated CVaR Value Function
Abstract
We study risk-sensitive planning under partial observability using the dynamic risk measure Iterated Conditional Value-at-Risk (ICVaR). A policy evaluation algorithm for ICVaR is developed with finite-time performance guarantees that do not depend on the cardinality of the action space. Building on this foundation, three widely used online planning algorithms--Sparse Sampling, Particle Filter Trees with Double Progressive Widening (PFT-DPW), and Partially Observable Monte Carlo Planning with Observation Widening (POMCPOW)--are extended to optimize the ICVaR value function rather than the expectation of the return. Our formulations introduce a risk parameter , where recovers standard expectation-based planning and induces increasing risk aversion. For ICVaR Sparse Sampling, we establish finite-time performance guarantees under the risk-sensitive objective, which further enable a novel exploration strategy tailored to ICVaR. Experiments on benchmark POMDP domains demonstrate that the proposed ICVaR planners achieve lower tail risk compared to their risk-neutral counterparts.
Cite
@article{arxiv.2601.20554,
title = {Online Risk-Averse Planning in POMDPs Using Iterated CVaR Value Function},
author = {Yaacov Pariente and Vadim Indelman},
journal= {arXiv preprint arXiv:2601.20554},
year = {2026}
}